Chapter 1, 2, and 19

Question 1

Two bacteria that are visible without a microscope

Answer 1

Thiomargarita
Epulopiscium

Question 2

The investigator who allowed air to enter a flask containing a sterile nutrient solution after the air had passed through a red-hot tube

Answer 2

Theodore Schwann

Question 3

Investigators who allowed air to enter a
flask of heat-sterilized medium after it had passed through sterile cotton wool. No growth occurred in the medium even though the air had
not been heated.

Answer 3

Georg
Friedrich Schroder
Theodor von Dusch

Question 4

French naturalis who claimed in 1859 to have carried out experiments conclusively proving that microbial growth could occur without air contamination.

Answer 4

Felix Pouchet

Question 5

English physicist who dealt a final blow to spontaneous generation in 1877 by demonstrating that
dust did indeed carry germs and that if dust was absent, broth remained sterile even if directly exposed to air; provided evidence for the existence of exceptionally heat-resistant forms of bacteria

Answer 5

John Tyndall

Question 6

German botanist who discovered the
existence of heat-resistant bacterial endospores.

Answer 6

Ferdinand Cohn

Question 7

The idea that an imbalance between the four humors (blood, phlegm, yellow bile [choler], and black bile [melancholy]) led to disease had been widely accepted since the time of the Greek physician.

Answer 7

Galen

Question 8

first showed a
microorganism could cause disease when he demonstrated in
1835 that a silkworm disease was due to a fungal infection

Answer 8

Agostino Bassi

Question 9

proved that the great Potato Blight
of Ireland was caused by a fungus

Answer 9

M. J. Berkeley

Question 10

developed a system of antiseptic surgery designed to prevent microorganisms from entering wounds; provided strong indirect evidence for the role of microorganisms in disease because phenol, which killed bacteria, also prevented wound infections.

Answer 10

Joseph Lister

Question 11

One of Pasteur’s associates who made possible the discovery of viruses and their role in disease when he constructed a porcelain bacterial filter in 1884.

Answer 11

Charles Chamberland

Question 12

The first viral pathogen to be studied

Answer 12

tobacco mosaic disease virus

Question 13

The nine-year-old boy who had been bitten by a rabid
dog, brought to Pasteur.

Answer 13

Joseph Meister

Question 14

injected inactivated toxin into rabbits, inducing them to produce an antitoxin

Answer 14

Emil von Behring
Shibasaburo Kitasato

Question 15

discovered that some blood leukocytes could
engulf disease-causing bacteria

Answer 15

Elie Metchnikoff

Question 16

a process where yeast cells were responsible for the conversion of sugars to alcohol

Answer 16

alcoholic fermentation

Question 17

they studied microbial involvement in the carbon, nitrogen, and sulfur cycles taking place in soil and aquatic habitat

Answer 17

Sergei N. Winogradsky
Martinus W. Beijerinck

Question 18

Russian microbiologist who discovered that soil
bacteria could oxidize iron, sulfur, and ammonia to obtain energy,
and that many bacteria could incorporate CO2 into organic matter much like photosynthetic organisms.

Answer 18

Sergei N. Winogradsky

Question 19

He isolated the aerobic nitrogenfixing bacterium Azotobacter; a root nodule bacterium also capable of fixing nitrogen (later named Rhizobium); and sulfatereducing bacteria

Answer 19

Martinus W. Beijerinck

Question 20

They developed the
enrichment-culture technique and the use of selective media, which have been of such great importance in
microbiology.

Answer 20

Sergei N. Winogradsky
Martinus W. Beijerinck

Question 21

a network formed by branched long multinucleate filaments or hyphae, is characteristically produced by Actinomycetes.

Answer 21

mycelium

Question 22

discovered square bacteria living in salt ponds

Answer 22

Anthony E. Walsby

Question 23

created the fluid mosaic model

Answer 23

S. Jonathan Singer and
Garth Nicholson

Question 24

Organic inclusion bodies contain either

Answer 24

glycogen
Poly-β-hydroxybutyrate (PHB)

Question 25

contains β-hydroxybutyrate molecules joined by ester bonds between the carboxyl and hydroxyl groups of adjacent molecules.

Answer 25

Poly-β-hydroxybutyrate (PHB)

Question 26

are carbon storage reservoirs providing material for energy and biosynthesis

Answer 26

Glycogen and PHB inclusion bodies

Question 27

Cyanobacteria have two distinctive organic inclusion bodies.

Answer 27

Cyanophycin granules Carboxysomes

Question 28

composed of large polypeptides containing approximately equal amounts of the amino acids arginine and aspartic acid; large enough to be visible in the light microscope and store extra nitrogen for the bacteria

Answer 28

Cyanophycin granules

Question 29

present in many cyanobacteria, nitrifying bacteria, and thiobacilli; polyhedral, about 100 nm in diameter, and contain the enzyme ribulose-1,5-bisphosphate carboxylase in a paracrystalline arrangement; serve as a reserve of this enzyme and may be a site of CO2 fixation

Answer 29

carboxysomes

Question 30

Two major types of inorganic inclusion bodies

Answer 30

polyphosphate granules or volutin granule sulfur granules

Question 31

sometimes called metachromatic granules because they show the metachromatic effect; that is, they appear red or a different shade of blue when stained with the blue dyes methylene blue or toluidine blue

Answer 31

polyphosphate granules or volutin granule

Question 32

This is the unit of the sedimentation coefficient, a measure of the sedimentation velocity in a centrifuge

Answer 32

Svedberg unit

Question 33

a function of a particle’s molecular weight, volume, and shape

Answer 33

sedimentation coefficient

Question 34

used by some bacteria to orient in the earth’s magnetic field; contain iron in the form of magnetite

Answer 34

magnetosome

Question 35

special proteins that aid the polypeptide in folding to its proper shape

Answer 35

molecular chaperones, or chaperones

Question 36

specifically reacts with DNA

Answer 36

Feulgen stain

Question 37

has a single membrane that surrounds a region, the pirellulosome, which contains a fibrillar nucleoid and ribosome-like particles

Answer 37

Pirellula

Question 38

attacks peptidoglycan by hydrolyzing the bond that connects N-acetylmuramic acid with carbon four of N-acetylglucosamine

Answer 38

lysozyme

Question 39

inhibits peptidoglycan synthesis

Answer 39

Penicillin

Question 40

refer to Gram-negative cells that retain their outer membrane after penicillin treatment

Answer 40

spheroplasts

Question 41

is a network of polysaccharides extending from the surface of bacteria and other cells (in this sense it could encompass both capsules and slime layers)

Answer 41

glycocalyx

Question 42

Bacteria that has a capsule of poly-D-glutamic acid

Answer 42

Bacillus anthracis

Question 42

bacterial flagellum is composed of three parts

Answer 42

filament basal body hook

Question 43

the most complex part of a flagellum

Answer 43

basal body

Question 43

a short, curved segment that links the filament to its basal body and acts as a flexible coupling

Answer 43

hook

Question 44

excellent example of self-assembly

Answer 44

Filament synthesis

Question 45

Movement toward chemical attractants and away from repellent

Answer 45

chemotaxis

Question 46

special proteins that bind chemicals and transmit signals to the other components of the chemosensing system

Answer 46

chemoreceptors

Question 47

chemoreceptors that recognize serine, aspartate and maltose, ribose and galactose, and dipeptides, respectively

Answer 47

methyl-accepting chemotaxis proteins (MCPs)